The contribution of nucleus accumbens dopamine neurotransmission to reward and reinforcement has been the focus of many years of study. Other terminal sites have received comparatively less research attention, but may be potentially important. One of these sites is the lateral habenula, which receives dopaminergic innervation from cells arising from the ventral tegmental area. Very little is known about the contribution of this pathway to reward in general and to the rewarding effect of electrical brain stimulation in particular. The goal of this study was to study the contribution of mesohabenular dopamine to reward induced by electrical stimulation of the dorsal raphe. Male Sprague-Dawley rats were implanted with bilateral cannulae in the lateral habenula and a stimulation electrode aimed at the dorsal raphe nucleus. Using the curveshift paradigm, we measured the rewarding effect of intra-habenular infusions of amphetamine (10-40 μg). Control rats received amphetamine infusions into nucleus
accumbens core or shell subregions (1-20 μg). Our findings show that regardless of
concentration, intra-habenular amphetamine did not alter brain stimulation reward.
Infusions into the nucleus accumbens enhanced the rewarding effectiveness of the stimulation, as previously shown. Our findings suggest that dopaminergic neurotransmission within the lateral habenula does not contribute significantly to the circuitry that mediates the rewarding effect of electrical brain stimulation.